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I am trying to solve quite a difficult problem for me. I'm not new to programming, but I don't really know how to figure out this problem. It's given a set of points (point []) with Xi and Yi coordinates as an input. The program has to output circumference of a convex hull of the polygon, but if it is necessary, it can divide the hull into two parts, two separate convex hulls, for each will contain a number of points. The goal of this division is to have a shorter circumference (if a sum of circumference of those two hulls is shorter than circumference of one hull; for example: two clusters of points far away from each other). The problem also is that there can't be more than two hulls. I would appreciate any ideas.

There's a simple illustration of that problem (there could be a lot more points). Here you can see that circumference of two separated hulls is shorter than circumference of one. enter image description here

ADD: Actually, by "circumference" I mean perimeter.

Here's the key part of my code:

m.x = (a.x + b.x)/2;
    m.y = (a.y + b.y)/2;

    ab.first = b.x - a.x;
    ab.second = b.y - a.y;

    for (i=0; i<n; ++i)
        if (p[i].x * ab.first + p[i].y * ab.second - (SQ(ab.second) + SQ(ab.first))/2 > 0)
        else if (p[i].x * ab.first + p[i].y * ab.second - (SQ(ab.second) + SQ(ab.first))/2 < 0)
        if (p[i].x * ab.first + p[i].y * ab.second - (SQ(ab.second) + SQ(ab.first))/2 == 0)
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"has to output a minimum circumference of a convex hull of the polygon" For what it's worth, the convex hull is unique (i.e. there's only one), so I'm not sure what "minimum" you want to take. –  Dennis Meng Oct 31 '13 at 22:36
Yeah, I'm sorry for not being clear. The program has to output a circumference of the convex hull, that's it. But if it is possible to create two convex hulls and the circumference of both is shorter than the circumference of one, it outputs a sum of those hulls. –  user2943215 Oct 31 '13 at 22:59
Sounds reasonable. Do you mind editing the question to make that point a little more clear? –  Dennis Meng Oct 31 '13 at 23:33
I think you meant to use hull1 + hull2 < big hull? –  sdasdadas Nov 1 '13 at 0:03
@sdasdadas - what about <===> which can be split into < and >? that suggests that breaking the two largest non-contiguous edges might work. –  andrew cooke Nov 1 '13 at 0:20

2 Answers 2

up vote 4 down vote accepted

It seems that two hulls will be beneficial when two (or more) long-separated clusters exist. So I would suggest to try a simple method (probably approximate):

construct convex hull
find the farthest pair of points (A, B) in hull with rotating calipers
divide all the points with middle perpendicular to AB segment
find hulls of resulted clouds and calculate profit or loss 

enter image description here

Added: finding the farthest pair of points with rotating calipers link

Added 2: How to divide point cloud with middle perpendicular:

Middle point: M = (A + B)/2
(M.X = (A.X + B.X)/2, M.Y = (A.Y + B.Y)/2 )

AB vector: (B.X-A.X, B.Y-A.Y)

Middle perpendicular line has general equation:

(y-M.Y) / AB.X = - (x-M.X) / AB.Y
(y-M.Y) * AB.Y + (x-M.X) * AB.X = 0
//incorrect  x * AB.X + y * AB.Y - (AB.Y^2 + AB.X^2)/2 = 0
x * AB.X + y * AB.Y - (B.Y^2 - A.Y^2 + B.X^2 - A.X^2)/2 = 0

When you use P[i].X and P[i].Y for every point instead of x and y in in the last equation, you'll get positive value for points to left, and negative value for points to right of line (and zero value for points on the line)

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Wow, that's like something I was looking for. I edited the question to make it more clear. There can be maximum of two hulls. But well, I'm not sure if I got it right. I need to find the farthers pair of points A and B, allright. Then I start to create hulls around those points ? I'm not sure what are rotating calipers and how to divide the points. –  user2943215 Nov 1 '13 at 10:41
@user2943215 No, you start to create one hull for points left to dividing line, and another hull for points right to that line –  MBo Nov 1 '13 at 11:13
Hi, I just returned to this problem, because I didn't have much time last days. Now I've constructed convex hull and calculated a circumference. I'm actually on my way to calculate the diameter, but could you give me some idea how to divide the points with middle perpendicular (I don't know whether it matters or not, but I'm programming in C++) ? –  user2943215 Nov 6 '13 at 21:26
I have one more question. In calculation of "Middle point M = (A + B)/2 AB vector (B.X-A.X, B.Y-A.Y)" the (A + B)/2 is multiplied by vector (B.X-A.X, B.Y-A.Y) ? Sorry, I don't know much about vectors, I have been programming only in C recently. –  user2943215 Nov 9 '13 at 18:50
No, it is not multiplied. Just reference. –  MBo Nov 10 '13 at 15:58

I agree with MBo that the trick is to find a wide spacing within which to cut the two hulls. But I don't agree that rotating calipers is the right approach. What you care about is not the outer dimensions, but the inner dimensions. If you have a very wide set of points which are organized into two parallel horizontal lines, you want to cut between the two lines, not halfway through each.

Essentially, I think you want to find a "thick" separating line, which cuts the point set into two pieces and which is as far separated from the points on both sides as possible. This is known as the "furthest hyperplane problem", and is normally used for an unsupervised variant of the Support Vector Machine algorithm.

This is a hard (NP-hard) problem, but there are approximation algorithms out there. The basic idea is to take many potential angles for the line, and figure out where to put a line of that angle to maximize its separation.

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